Candy-coating machine.



P. P. PUPILLA.

CANDY COATING MACHINE. APPLICATION FILED FEB. I. 1914. RENEWED APR. 4. I918.

Patented Feb. 18, 1919.

I1 SHEETS-SHEET I.

A TTR/VEYS P. P'. PUPI'LLA. CANDY com-ms MACHINE.

APPLICATION BLLED FEB-J, D914. RENEWED APR. 4, I918.

Patentefl Feb 18, 1919.

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I/VVENTOR womvws WITNESSES;

Patented Feb. 18. 1919.

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WITNESSES:

P. P. PUPILLA.

CANDY COATING MACHINE.

APPLlCATlON FILED FEB. 7, 1914. RENEWED APR. 4, 191a.

Patented Feb. 18, 19 .9.

I] SHEETS-SHEE! 4.

I I WITNESSES: 156 1' Ill/VENTOR P. P. PUPILLA. CANDY comma MACHINE. APPLICATION FILED FEB. 7, E914 RENEWED APR. 4. 1918. v LQ9%9&6 Patented Feb. 18, 1919.

ll SHEETS-SHEET 5- PM P W BY A P. P. PUPILLA.

CANDY COATING MACHINE.

APPLICATION FILED FEB. 7, 1914. RENEWED APR-4,1918- Patented Feb. 18 1919.

I1 SHEETS-SHEE] 6- F" ML ATTORNEYS P. P. PUPILLA. I CANDY COATING MACHINE, APPLICATION FILED FEB. 7, 1914. RENEWED APR. 4. 191B.

Patented Feb. 18, 1919.

11 SHEETS-SHEET 7.

I L gfii\wl V r ':i:::-: QE 17 i 1 R 176 WITNESSES: H7 1 M7 119 [MENTOR P. P. PUPILLA.

CANDY comma MACHINE.

APPUCATION FILED FEB-1,19l4- RENEWED APR. 4, I918 Patented Feb. 18, 1919.

I1 SHEETS SHEET 8.

WITNESSES P. P. PUPILLA.

CA-NDY COATING MACHINE.

APPLICATION mm FEB. 7, 1914. RENEWED APR. 4, 191a.

Patented Feb. 18, 1919.

ll SHEETSSHEE'I 9.

' INA/ENTOR P. P. PUPILLA. CANDY COATING MACHINE. APPLICATION FILEDFEB. 2, 1914A RENEWED APR. 4, 1918.

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- Patented Feb. 18, 1919.

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To all whom it may concern:

JPJliUL IE. PUPILLA, OF BB,

LEE. BEACH, NEW JlEi-lllfi'wlilif'.

CANDY-00.351151 Gr MAUI-UN 1E1.

Be it known that 1, PAUL Pa PUPILLA, a

Specification of Letters Patent.

citizen of the United States, and a resident of Bradley Beach, in the county of Monmouth and State of New Jersey, have invented a new and Improved Candy-Coating Machine, of which the following 1s a full, clear, and exact description.

This invention relates to candy making machines, and more particularly to a ma chine for coating candy centers with chocolate or other coating material.

The general objects of the invention are to provide a. coating machine which is of large capacity and efficient and. reliable in operation, and in its practical embodiment the machine comprises means for simultaneously feeding into a separating chaInber a tray containing molding material and candy centers, and a grid or holderfor recei ving such centers, means for bringing the grid and tra together, means for turning the tray an grid over to empty out the molding material and deposit the centers on the grid, means for separating the inverted tray and grid, means for feeding the filled grid forwardly to a transfer grid, means for operating the transfer grid to remove the centers from the traveling grid and delivering the centers to a coating grid, means in :the form of a movable tank for applying coating material to the centers of the coating grid, means receiving coating material from the tank and delivering jets of coating material to the tops of the coated centers to finish the same, a removing grid which moves into and out of the coating grid .to remove the coated centers therefrom, conveying belts for receiving the centers from the removing grid, a sheet conveying mechanism arranged to enable the belts to deliver the centers on I sheets of paper or the like, and meansfor refilling the empty trays with molding material, whereby the trays can betaken to a molding machine and have cream deposited therein to form centers.

For a more detailed understanding of the invention reference is to be had to the accompanying drawings taken in 0011- election with the following description and appended claims.

In the accompanying drawings which illustrate one embodiment of the invention and wherein similar characters of refering the empty trays that Patented Fehld, lhllw.

817,175. Renewed April d, 1918. Serial No. 226,781.

ence indicate corresponding parts in all the views,

Figure 1 is a side view of a machine with the delivery end broken away.

*ig. 1 is a diagrammatic view of four successive positions of the parts that oper-- ate the tray-engaging dogs;

, Fig.- 1 is an enlarged detail view of part ofthe operating means for the trayengaging dogs} Fig. 2 is a' vertical longitudinal section of the machine;- i i Fig. 2 is a detail' perspective view of part of the tray carrier;

Fig. 2" is a fragmentary perspective view of the scraping comb.

Fig. 3 is a section showing a continuation of the left end of the view in Fig. 2;

Fig. i is an enlarged detail section of the dusting brush which dusts the centers while passing from the separating chamber to the coating mechanism;

F ig. 5 is a transverse vertical section of the machine on the line 55, Fig. 1, showing the tray hopperor rack with-the means for controlling the feed of the'trays there from, and also showing means for .re:versthe separating chamber;

Fig. 6 is a. transverse vertical section on the line 66, Fig. 1, taken through the separating chamberand showing the means for bringing a. receiving grid and tray together, reversing the two for emptying the molding material or starch from the tray and depositing the centers on the grid, and finally separating the inverted grid and tray, and also showing the tracks on which the re-filled trays travel and showing the pumps for circulating the chocolate in the coating mechanism;

Fig. 7 is an enlarged detail view showing are ej eoted' from the upper left hand portion of Fig. 6, with the receiving grid and tray brought together reparatory to their inversion;

F1 a is a detail sectional view on the llne l Fig. 7;

Fig. is a sectional view similar to Fig. 7, showlng the tray and grid inverted and the grid separated from the tray and the" int two ready to be moved out of the separating chamber;

Fig. 8 is a sectional 8 -8 Fig. 7;

Fig. 9 is a perspectiveview of one of the view on the line lll ll catches or stopping devices used in connection with mechanism for controlling the bringing together or separation, of the tray and grid in the separating chamber;

Fig. 10 is a diagrammatic view, in perspective, of the complete system ofcatches or stops at each side of the separating of one of the jet devices for depositing jets of finishing coating material to the centers;

Fig. 13 is a sectional view on the line 13-13, Fig. 12; 4

Fig. 14: is a sectional v1ew through the coating mechanism on the line 1&-14 Fig.

11, showing the centers submerged in the tank of coating material and the jet devices in the act of filling with a, coating material;

Fig. 15 is a section on the line 15 15, Fig. 11, showing the jet devices in non-discharged position; I

Fig. 15 is a detail view showing a et device depositing a finishing coating material on a candy center;

Fig. 16 is a sectional view on the line 16-16, Fig. 1, showing one of the driving cam wheels for the various operating mechanisms of the machine, the dusting brush for dusting the candy centers, and the track arrangement for the re-filled trays;

Fig. 17 is 'a detail sectional view showing the operating means for the transfer grid or removing grid associated with the coating mechanism;

Fig. 18 is a perspective view of a sheet conveying mechanism at the delivery end of the machine for successively bringing the sheets to the conveying belts which deliver the coated centers to the sheets;

Fig. 19 is a perspective view of one of the fork members for spreading the belts of the sheet conveying mechanism for enabling the sheets with the centers thereon to be re moved;

Fig. 20 is a perspective view of one of the sheets or carriers on which the finished centers are deposited for the removal from the machine and convenient handling;

Fig. 21 is a transverse section on the line 21-21 Fig. 8 of the sheet conveying mechanism;

Fig. 21 is a detail sectional view of part of the sheet conveying mechanism;

detail sectional view of one.

Fig. 22 is a detail sectional view through one of the driving belts of the sheet conveying mechanism, showing the manner in which the sheets are engaged therewith;

Fig. 23 is a fragmentary plan view showin g a center-receiving or conveying grid with the centers thereon about to be removed by the transfer grid;

Fig. 23 is a perspective view of the air blast deviceused in connection with the coating mechanism for blowing off superfluous coating material immediately after the same has been applied to the centers;

Fig. 24: is a similar view showing the transferdgrid delivering the centers to the coating gm Fig. 25 is a similar view showing the coated centers about to be removed from the coating grid and the transfer grid returned to its initial position and the receiving or conveying grid carried away;

Fig. 26 is a similar view showing the coated centers in the act of being deposited on the. conveying belts;

Figs. 27 and 27 are sectional views on the line 27 27 Fig. 23, respectively showing the uncoated candy centers before and after being taken up by the transfer grid;

Figs. 28 and 28 are sectional views on the line 28-28, Fig. 24, respectively showing centers before and after being placed on the coating grid;

Figs. 29 and 29' are sectional views on the line 2929, Fig. 25, respectively showing the coated centers before and after being picked up by the removing grid;

Figs. 80 and 30 are sectional views on the line 30-30, Fig. 26, respectively showing the coated centers before and after being delivered to the conveying belts;

Figs. '31 to 34 are diagrammatic views of the cam motions for operating the various mechanisms of the machine; and

Fig. 35 is a perspective view of the conveying, transfer, coating and removing grids.

The present invention is primarily a candy center coating machine and is adapted to receive trays containing molding material and candy centers cast therein from a molding and casting machine, and hence the present machine includes means whereby the trays are so handled that the candy centers are separated from the molding material or starch and fed after being separated to the coating mechanism, the molding material itself being used to re-fill the trays as they are emptied, so that such trays can be carried back to the molding and casting machine for further use. At the receiving end of the machine is a tray hopper or rack A in which are piled a plurality of trays 1 which contain molding material m and candy centers 0. The rack A is open at the top so as to receive the trays, and it is provided at its bottom with feeding or and below the level ejecting means that successively feeds the trays from the bottom of the rack to a separating chamber B arranged to one side of of the bottom of the rack. Movable back and forth in the bot tom of the rack is the feeder or ejector 2, Fig. 2, which, when at its rightextreme position, allows a tray to pass in front of it, so as to be ejected when the feeder 2 moves to the left, the tray passing out through an opening 3 into the chamber B. Means may be rovided for supporting the pile of trays off the lowermost tray as the latter is being ejected. In the present instance, as shown in Fig. 5, a pair of" dogs 4 move simultaneously inwardly from opposite sides of the machine and are adapted to enter openings or grooves 5 in the sides of the tray 1 second from the bottom, so as to hold such second tray and those superimposed thereto while the bottom tray rests on ledges 6, Fig. 5, in position to be moved outwardly by the feeder 2, Fig; 2. The dogs 1- are' slidable in guides 7 and have rack teeth 8 with which mesh pinions 9 on the upper ends of vertical shafts 10 suitably mounted on vertical slides 11. These slides are movable in guides 12, Fig. 1, carried by the machine frame. The function of the slides, together with the dogs, is to bodily lower the pile so that the lowermost tray can be released in position for ejectment and then the dogs are adapted to engage the second tray and lift the same with the superimposed trays upwardly. For this purpose a cam plate 13 is arranged under each slide 11 to move horizontally on tracksv 14 on the front and rear sides of the machine frame, as shown in Fig. 5. Thecam plates 13fhav'e two'cam surfaces 15 and 16 with a horizontal portion 17 between the cam surfaces, and a horizontal portion 18 forming a continuation of the bottom portion of the cam surface 16. In other words, the. cam plates are step-shaped, and by means of-this formation the slides 11 and dogs a have an up and down movement. The dogs are adapted to be engaged with the secondmost tray, as in Fig. 5, throughout the downward movement of the slides 11, and then the dogs are released and move upwardly with the slides until the dogs are opposite the second tray. At this point the dogs are thrown inwardly to engage the second tray, so that as the slides and dogs con tinue their upward movement the pile will be lifted 0d the lowermost tray. This inward and outward movement of the dogs is efiected by means of a spring-pressed fin- ;otiger 19 carried by and pivotally mounted on the lower end of each shaft 10. This finger moves behind oppositely-disposed abutments 20 and 21 carried by each cam plate 13. By reference to Figs. 1 and 1 it will be understood that as the cam plate 13 moves, the

cam plates 13,

finger 19 will slide off one abutment, enter between the abutments and engage the other abutment which, as the cam plate continues to move, will cause the shaft 10 to rock, Which has the effect of throwing in or throwing out the tray-gripping dogs 1. The first step in the series of movements of the dog-actuating means, beginning with Fig. 1, is the movement of the cam plates 13 to the left. The finger 19 slides 0d the abutment 20 and enters between it and the abutment 21, and simultaneously with this the slides 11 and dogs 4 move downwardly on the cam surfaces 15, 17 and 16, and by the time the slides reach the bottom of the cam surfaces 16, the fingers 19 of the shafts l0 willstrike .the inner ends of the abutments 21, whereby the shafts will be rocked I as the cam plates'l3 move to the left. This causes the dogs 4 to be retracted when the tray is resting on the ledges 6, Fig. 5. The Figs, '1 and 1*, then move to the right, and in so doing the slides 11 are elevated by the cam surfaces 16, and while the horizontal surfaces 17 are under the slides the dogs are thrown into engagement with the second tray from the bottom. This movement of the dogs is effected by the fingers 19 sliding off the abutments 21 and entering between them and the abutments 20 as the cam plates 13 move to the right, and finally the abutments 20, acting through the fingers 19, rock the shafts 10 so that the dogs are thrown into trayengaging position. As the cam plates continue to move to the right the surfaces 15' elevate the slides,.dogs and pile of traysso that the lowermost or released tray can be moved out of the hopper or rack by the feeder 2. This feeder 2 is connected with vertical frames C movable horizontally and embodying rack bars 22 which mesh with suitably driven pinions 23, so timed in their action with respect to the cam plates 13 that the pile of trays will be held raised while the feeder 2 is operated.

The separating chamber B contains a vertically movable and invertible carrier D, Figs. 2 and 10 This carrier consists of a plate 25 having upright corner members 26 at each end, which support grooved bars or rails 27 parallel with thebottom plate 25. Extending outwardly from each rail is a journal 28 provided with a mutilated pinion 29. The journals 28 move in vertical slots 30 in the side walls of the separating chamber B. When the carrier is in raised position the bottom plate 25 thereof is approximately on a level with the lowermost tray in the rack A, so that when suc ,tray is ejec ed it .will be received by the carrier. The grooved rails 27 willat the same time be in the path of a horizontal track 31 formed by flanges on the innerv surfaces of the frbnt and rear frames 32 and 33 on the machine structure.

llllli Candy center receiving or conveying grids E are fed step by step so that one grid will enter the carrier in a position above the tray therein. The carrier is suspended by means of members 34 of vertically movable traveling frames F on the front and rear frames of the machine structure. Rack bars 35 are arranged adjacent the grooves so as to mesh with the mutilated pinions 29 of the slots, whereby the carrier is turned through one hundred and eighty degrees in order to bring the grid therein under the tray for the purpose of depositing the candycenters on the grid While the molding material drops through the latter. Before this inversion of the carrier can occur and before the filled grid and empty tray can be taken out it is necessary to bring the grid and tray to gether before they are turned, and then separate the tray and grid after they are turned. This is accomplished by the mechtray 1 therein,

-1. A set of the tray above.

anism shown in Figs. 6 to 10 inclusive.

In the carrier D is a tray-holding plate 40 which has recesses 41 at its corners, as shown in Figs. 7*? and 10, to receive ribs 42 on the members 26 of the carrier, and the ends of this plate 40 have approximately T-shaped flanges 43. These flanges 43 are adapted to engage in the grooves 5 in the, ends of the trays 1, so that the tray in the carrier and plate 40 willmove together within the limits of the bottom plate 25 and the grid E in'the carrier.

Beginning with the parts shown in Fig. 6, the grid E moves downwardlytoward the as the carrier as a .whole moves, but the tray 1 is held stationary momentarily by means of catches or dogs 44, Figs. 6, 7, 8 and 10, which dogs are mounted to engage under the flanges 43 f the traycarrying plate 40. As soon as the grid E meets the top of the tray the two are held together by spring studs 45 (Fig. 8) on the bars 27 of the carrier D engaging in sockets 46 in the flanges 43 of the .plate 25. The dogs 44 are now released automatically and the grid and tray begin to turn by reason of the mutilated pinions 29 meshing with the rack-teeth 35. By the time the end of the racks 35 are reached a grid and tray will have turned through one hundred and eighty degrees, with the grid lowermost and Slipping of the tray and grid in the turning of the carrier D is prevented by the springs 27 and 43, Fig. 10*, that respectively engage the grid E and tray lower catches or dogs 47 are thrown into the path of the flanges 43 on the and arrest the moveust as the carrier completes its turning. The carrier, however, continues to move downwardly until it assumes the position shown in Fig. 8, where the candy centers 0 are shown resting on the grid E and the tray 1 empty. The filled grid and tray-carrying plate 40 ment of he tray] cent the upper and strikes an abutment 71 as the empty tray can now be removed from the separating hamber, so that the carrier can move upwardly to its receiving position, and in so doing be restored by turning through one hundred and eighty degrees. When in receiving and dischar mg position the carrier D is held absolutefy horizontal by means of vertical fixed pins 48 at the upper and lower ends of members 49 which carry the racks 35, such pins 48 being disposed adja lower ends of the guide slots 30. The mutilated pinions 29 have diametrical openings 50 so arranged as to receive the pins 48, said openings 50 in the pinions being at right angles to the plane of the bottom plate 25 and rails 27 of the carrier. Any suitable means may be employed to operate the dogs or catches 44 and 47 in timed relation to the movement of the carrier. For instance, the upper dogs 44 are connected by links 51 with crank wheels 52, which wheels are fastened to a shaft 53 journal'ed in bearings 54 on the machine structure. On one wheel is a pin 55 and on the other is a pin 56-, and with these pins 00- operate respectively pawls 57 and 58 carried by the lower ends of members 59 and 60 on the vertical traveling frame F, which latter is suitably guided on the machine frame structure. The pawl 57 has an abutment 57 which in moving downwardly strikes the pin 55- and swings the dogs 54 from the position shown in Fig. 7 to that shown in Fig. 8. The pawl 58 has a shoulder 58 which engages the pin 56 so that on the upward movement of the pawl the upper dogs 44 are swung upwardly from the position shown in Fig. 8 to that shown in Fig. 7. The lower dogs 47 are connected by links 61 with crank wheels 62 and 63 on the ends of a shaft .64 journaled in bearings 65 on the frame structure of the machine, and these wheels have pins 66 and 67 respectively, so arranged that the shoulders 57 a and 58 engage them on the down and up movements of the reciprocatory frame F, whereby the lower dogs are thrown from the position shown in Fig. 7 to that shown in Fig. 8, and vice versa. The pawls 57 and 58 are pressed by' springs 68, so that they can yield laterally., Thelower end of the dog 57 has a beveled extremity 57 which is adapted to strike an abutment 70 when the lower dogs 47 have reached the position shown in Fig.8. Such abutment 70 serves to throw the dog 57 laterally out of engagement .with the pin 66.

On the-pawl 58 is a projection 58 which awl moves upwardly, and by means of this abutment and projection the dog is swung outwardly to disengage the shoulder 58 thereof from the pin 67. An'a'butment 72 is arranged in the path of the beveled end 57 of the pawl 57 so as to release such pawl from the pin 55 on the .wheel 52 for the upper set of dogs escapee W it, so that the said pawl can continue its movement downwardly to operate the lower set of dogs. It is, however, understood that the carriage D moves up and down during the idle period of the feeder or ejector 2, and furthermore the carrier is idle while the said feeder or ejector is in operation.

When the carrier D is in lowered posi tion, as shown in Fig. 8, the empty tray 1 is removed by a horizontally movable ejector 75, Fig. 2, which moves to the right and shifts the empty tray out of the separating chamber B through an opening 76, and a feeder or ejector 77, Fig. 2, moves from the right side of the chamber B to the left, and thereby ejects the center-containing grid E from the carrier D to a track 78 disposed under the grid-supporting track 31. The filled grids move to the left on the track 78 to the coating mechanism hereinafter to be described.

Under the tray holder A is an empty tray reversing carrier G, Figs. 2 and 5, which is in the form of a horizontal frame having central journals 79 rotatable in the upper ends of slides 80 which are movable in guides 81 in the front and rear frames of the machine. The lower ends of these guides 80 are connected with the ends 82 of levers 83 fulcrumed at 84 on the front and rear frames 32 and 33 of the machine, one of such levers being shown in Fig. 1. In the slots 81 are racks 85 with which the mutilated pinions 86 of the journals 79 are adapted to mesh, whereby the carrier G is turned through one hundred and eighty degrees. This carrier has flanges 87 which are adapted to extend into the grooves 5 in the ends of the trays 1,

,gether. When the ends 82 of the levers 83 move upwardly the carrier G is elevated to a position in alinement with the opening 76. The empty tray is at this time ejected from the mixing chamber B and passes under the carrier G. As the carrier moves downwardly by the operation of the levers 83 the carrier and ,empty tray are turned through one hundred and eighty degrees and finally the carrier will come to rest with the empty tray, as shown. in Fig. 2, in the plane of a track 88 and a feeder 89, in front of which the empty tray is conducted bythe carrier G. This feeder 89 is adapted to move to the left, Fig. 2, and feed the empty trays successively along the track '88. This track 88 passes under the bot-tom of the separating chamber B, which is bottomless, and consequently as the trays pass thereunder they receive the starch or molding material that has been dumped out by previous trays during the process of'separatingthe centers from the starch. A sieve 9O suitably agitated serves to sift the starch before it falls into the tlli empty trays. This forward movement of the W empty and refilled trays is synchronous with so that the holder G and tray will move tothe feeding of the trays from the holder A to the carrier D in the separating chamber B, and consequently the feeder 89 forms a part of the horizontal reciprocatory frame or structure C, Figs. 1 and 2. Under the track 88 is another track 91 along which the refilled trays travel to a point where they are taken fi by an attendant and carried to a molding and casting machine. A carrier 92 is movable from the" track 88'to the track 91, and in line with the track 91 is a horizontal reciprocatory feeder 93 which feeds the refilled trays to the right along the track 91. A receptacle 94: is disposed under thecarrier 92 so as to collect any loose starch which may be carried along with the traveling refilled trays.

The grids, holders or equivalent devices E for receiving the candy centers from the trays comprise rectangular structures consisting of parallel bars e suitably spaced apart,'and the bars-at one end are all connected-together within a rectangular frame 6, the opposite ends of the bars-e being free so as fto constitute a plurality of parallel finger-like members, and the side of the frame e adjacent the free end of the fingers is open. The fingers or bars 6 have pins or other'suitable means 6 which are adapted to penetrate the fiat sides of the candy centers when the grids are brought into contact withthefilled trays in the carrier within the separating chamber. In other words, the grids E inay be considered as forks, this construction being preferable for facilitating the easy removal of the centers from the forks so as tobe placed in the coating meclr anism in the exact relative positions the centers occupied in the molding trays. The filled grids E as they feed toward the coating mechanism have the free ends of their bars or fingers presented toward such coating mechanism, and the centers rest on the tops of the grids, as clearly shown in Fig. 2. When, however, the empty grids travel to the separating chamber they are in inverted position with the pins 6 extending downwardly, so that they will take hold of the candy centers when the trays and grids are brought together in the carrier D. At the right end of the track 78 isa carrier H which moves vertically. and is adapted to turn through one hundred and eighty degrees in its travel. As shown in Fig. 1, this carrier is supported on members 95 of the vertically movable frame F, and connected with the journals 96 of the carrier H are mutilated pinions 97 which are adapted to mesh with racks 98 so disposed that at an intermediate point in the travel of the carrier it will turn through onehundred and eighty degrees. It will be understood that the carrier H, and in fact the carrier for the empty trays, will be provided with means for preventing the grid or tray from slipping out of the respective carriers when the latter are turning. For this purpose the grooved side members it of the carrier each has a spring or equivalent gripping means 99, Fig. 2%, in the groove 100. The side members it of this carrier are connected togetherby a cross bar or equivalent means h, so that a rectangular structure open at one side is provided. When the carrier is in its lowered position the foremost tray E is fed into the same by means of the feeder 77, and after the candy centers 0 are removed from the grid E within the carrier H by means of the transfer grid 1, the cari'ier H is movedupwardly by the frame F, and finally the carrier H reaches a position in alinement with the track 31. An ejector or feeder 101, Fig. 2, now ejects the empty grid E from the carrier H by moving such grid to the right, whereby the grids of the track 31 are moved so that an empty grid will enter the carrier D in the separating chamber B, while the recently emptied grid E is being ejected fromthe carrier H. It will be understood that the carrier H while in receiving and discharging position will be maintained horizontal by pins 102, which enter the pinion 97 when such pinion is in its eatreme upper or lower position.

Before the centers are I delivered to the coating mechanism they are subjected to a brushing action for removingloose starch. Consequently, a. brush J is mounted over the track 78 and disposed in a horizontal position, so that the entire upper Surface of each candy center will be brushed not only by the trays passing under the brush, but by the brush working back and forth over the candy centers. The actuating means for the brush comprises a shaft 103, Figs. 2, 4 and 16, mounted in a bearing 104,and on the shaft 103 is a crank pin brush J, and consequently the rotation of the shaft willreciprocate thebrush both longitudinally and laterally. It isto be understood that at least two shaftsare connected with the brush preferably at the forward corners or those corners nearest the coating mechanism, but in the figures mentioned the actuating means at one corner of the brush able horizontally.

is shown. On eachshaft 103 is a pinion 106 which meshes with rack teeth 107 mov- These rack teeth are arranged on bars 108 to which the ends of the empty tray feeder or ejector are connected, and said bars 108 are each united by a vertical connection 109, Fig. 1, with a hori zontal bar 110. The bars 110 are outside the frame structure of the machine, while the bars 108 extend into the frame structure through openings 111. The bars 110 which are reciprocated horizontally bv mechanism hereafter to be described have rack teeth 112. Meshing with the rack teeth on these bars are pinions 113, which in turn mesh with rack teeth 114: on the cam plate 105 connected with the 13, so that such cam plate receives motion from the bars 110 which control the empty tray ejector 7 5 and the brush J. This brush J is connected with the sieve by connecting means 115, Figs. 2 and 16, whereby the said sieve 90 will be agitated by the movement of the brush.

The transfer grid I may be considered as part of the coating mechanism, in that it serves to supply the candy centers thereto. This grid is in the nature of a fork consisting of bars 116 horizontally disposed and connected together by a transversely-extending member 117, the free ends of the bars 116 being adjacent the coating mechanism. This transfer grid I is slidable horizontally on the table 118 into and out of the coating grid K. The table 118 has a slight vertical movement for the purpose of moving the grid I upwardly in the receiving or conveying grid E that has been moved to a position over the transfer grid, and also for the purpose of lowering the transfer grid while in the coating grld, so that the candy centers will be placed on and supported by the latter. In Figs. 23 and 27 the bars 116 of the transfer grid are shown immediately prior to the upward movement of the table 118, and in Fig. 27' the transfer grid is shown raised with the candy centers 0 lifted off the bars of the grid E. This vertical movement of the table 118 is produced by cams 119 mounted on a rock shaft 120 extending transversely of the machine, and such cams are adapted to engage depending members 121 on the table. As shown in Fig. 17, the shaft 120 is adapted to have a slight longitudinal movement against the tension of a spring 122, such longitudinal movement being produced by a radial finger 123 rigid on the shaft 120 and a stationary cam 124.. As the shaft 120 rotates, the finger 125 travels on the cam 124:, and consequently the shaft is moved to the left, Fig. 17, until the elevating cams 119 pass from under the members 121 of the table, and when this occurs the table drops and is retained -in this position until the shaft is rocked in the opposite direction far enough to bring the surfaces 119, Fig. 2, in such a position that the cams 119 can slide under the members 121 by the spring 122 moving the shaft to the right, Fig. 17. This downward movement or drop of the table does not occur. however. until the transfer grid I has moved 120 completely into the coating grid K. In other words, after the table 118 has been raised to cause the grid I to take up the candy centers from the conveying grid E that has been fed thereto, the table is main- 125 tained in this position while the grid I moves to the left, Fig. 2, and when it reaches the end of this movement the table drops as aforesaid. and consequently the candy centers are delivered to the coating grid. The

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transfer grid then slides backward on the table 118, which it is understood has only a vertical movement and does not move back and forth horizontally with the grid 1. The horizontal movement of the rid l[ is produced by levers 125 on the en s of the shaft 120, the said levers having bifurcated ends 126 into which engage the ends of a horizontal rod 127 extending transversely of the machine and movable in horizontal slots 128 in the side frames of the machine. This rod enters a recess 129 in the bottom of the bar 117 of the transfer grid.- By reason of the slot 129 the grid I can have a-vertical movement with the table 118 and yet there will always be a connection between a grid and the means for operating the same horizontally. The coating grid K comprises a plurality of horizontally disposed spaced bars 130 which, as shown in Figs. 23 to 26, inclusive, are so related to the transfer grid that such bars 130 non--a1ine with the bars 116 of the transfer grid. By reason of this relation the transfer grid can slide horizontally into the coating grid from this position shown in Fig. to that shown in Fig. 2 1. and consequently the candy centers are transferred from the conveying grid E to the coating grid K, and during the movement of the transfer grid into the coating grid the upper edges of the bars 116 of the transfer grid will be supported a small fraction of an inch above the corresponding edges of the bars 130 of the coating grid, so that the candy centers will not engage the said bars and become displaced while the transfer grid enters the coating grid. Af ter the transfer grid is entered, as shown in Figs. 24 and 28, the transfer grid moves downwardly so as to deposit the candy centers on the top edges of the bars of the coating grid, as shown in Fig. 28. After the centers have been placed on the coating grid the transfer grid moves back to its receiving position and the candy centers are then coated. A removing grid L mounted at the side of the coating grid opposite from the transfer grid is employed to remove the coated centers. This transfer grid consists v of a plurality of parallel bars 131 connected with a cross-bar 132, and these parallel bar 131 are so positioned as to enter between the bars 130 of the coating grid so that the coated centers can beremoved from the latter in the same manner that the transfer grid removed the uncoated centers from the conveying grids. In Figs. and 29 the centers are represented as having been coated, and the removing grid L is in position to engage the coated centers and remove them to a position for delivery from the machine. In Fig. 29 the removing grid has moved upwardly to lift the coated candies from the coating grid. and in Figs. 26 and 30 the removing grid is Shown as having traveled from receiving to discharge position to one side of or completely out of the coating grid. The removing grid is moved back and forth and raised and lowered by a mechanism similar to that which performs the same functions in connection with the transfer grid I, and the corresponding parts will be recognized by the numbersbeing primed. It will be noted that the various grids are so related and operated that the centers will maintain the exact relation they occupied to each other in the molding trays, that is to say, they will be maintained in rows and spaced apart throughout their transit through-the machine the distance they occupied in the molding trays. After the removing grid reaches the position shown in Fig. 26 it deposits the coated centers on a plurality of endless belts 133 Which have their upper stretches horizontally disposed and so arranged between the bars of the removing grid that the downward movement of the latter from the position shown in Fig.30 to that shown in Fig. 30 will deposit the coated centers on the belts, which convey them to a sheet-conveying mechanism hereinafter to'be described, whereby the centers are placed upon sheets or other means convenient for handling. These belts 'pass over suitable guide "rollers. 13-]: and

through openings 138 in the side frames 32 and 33 of the'lnachine, and by fitting in these openings the tank is guided in its up and down movements. The ends of the tank have fastened thereto vertically disposed rack bars 139 movable in guides 1-10, and meshing with the rack bars 139, Fig. 1, are pinions 111 which have their shafts 142 connected with pinions 14:3 that mesh with rack teeth ll-l on horizontally movable bars 115, which bars are slidable in guide-s 14:6 carried by the frame structure. The coating grid K is supported on transverse horizontal members 1-17 connected with depending members 1-l8, which members are spaced apart from the side edges of the openings 138 in the frames 32 and 33 of the machine, so as to .provide slots 149. Figs. 1, 2, l i and 15, so as to permit the walls of the tank M to pass upwardly far enough that the coating grid will be submerged in the chocolate. The coating grid comprises a rectangular frame consisting of side members /u and end members la." and centers supporting parallel "bars 130 that are rigid on the side bars in. The size of the grid K will of course be smaller than the horizontal dimensions of the tank, so that the grid can enter the tank to enable the centers of the grid to be submerged. The chocolate in the tank M is kept at a constant level, and for this purpose a circulating system is employed. This system comprises a supply tank or reservoir M located under the tank M, and one or more pumps 150 receive chocolate from the reservoir M and deliver it through pipes 151 to the tank M, the upper ends 152 of the pipes being formed into spouts which are located above the upper limit of the movement of the tank M. By means of vthese pipes a constant supply of chocolate is maintained in excess of the amount required for coating the candy centers and consequently the surplus overflows through pipes 153 to the lower tank or reservoir M, said pipes 153 having their upper ends 154 connected with the tank M at points where a constant level is to be maintained, and the lower ends 155 terminate in spouts which are arranged to discharge into the lower tank. The pistons of the pumps 150 are connected by rods 156, Figs. 2 and 6, with rockers 157 operated by cranks 158 on the shaft 159, which shaft has gear wheels 160 that mesh with large gear wheels 161, which also form driving means for the various instrumentalities that go to make up the machine.

In order to impart a decorative finish to the coated centers, means are employed to direct streams of chocolate on the tops of the'centers' after they are removed from the coating tank, the streams and the coated chocolates being relatively moved, whereby the finishing coating material will be distributed or deposited regularly or irregu- *larly,

according to the shape desired for the finished candy. This depositing of the finishing coating material is accomplished by a plurality of jet devices N which are supported over the coating grid and constructed and mounted as shown in Figs. 2, and 11 to 15 inclusive. Each device N consists of a trough-like hollow body having an opening 162 and provided in its bottom with small apertures 163 which deliver jets of chocolate when the jet devices N are in discharging position. One device is used for each transverse row of candy centers on the coating grid, and there will be as many jet devices as there are transverse rows. Each device N is mounted at its ends on levers 16%, which levers are fulcrumed at 165 on the sides'166 of a frame 167 which is mounted over the coating grid. This frame is supported on crank wheels 168 arranged at the corners of the frame, and each wheel has a crank pin 169 which engages in a socket 170 in the frame 167, so that as the crank Wheels rotate the frame will be moved back and forth in a horizontal plane, whereby the streams of chocolate delivered by the jet devices will be deposited on. the coated candy centers more or less in a circular figure. The crank wheels 168 are fastened to the upper ends of the vertical shafts 171 which extend through bearings 172 on the members 148, and the lower ends of the shafts are provided with pinions 173 which mesh with rack teeth 171 on the side memhers is of the base frame of the coating grid K, so that the back and forth movement of the grid will rotate the shafts 151 and cause the frame 167 to move as explained. The levers 1641 have their lower ends connected at 175 with a link 176, the ends of which are adapted to engage abutmentsg177 and 178 which are carried by the coating grid so that as the latter moves back and forth it will oscillate the levers which carry the jet discharging devices N. The frame 167 which carries the jet discharging devices is adapted to be agitated in any suitable manner, as, for instance, by rapidly rotating eccentrics 179 fastened to a shaft 180 and rotating in eccentric straps 181 fastened to 'the ends of the frame 167. This shaft 180 the cams 1841 into engagement with the plungers 183 after the tank has been lowered from the position shown in Fig. 14, and the plungers are moved longitudinally into engagement with the coating grid so as to move the latter to the left from the position shown in Fig. 11 to that shown in Fig. 15. As the tank moves upwardly a beveled surface 186 thereon engages the beveled surface 187 on the coating grid, so that the latter is moved to the right, it bein understood that before this action takes place the cam 184: moves upwardly, so that the plungers 183 will recede out of the path of the upwardly-traveling tank M. The jet discharging devices N are so positioned that they will automatically fill by being submerged in the chocolate in the tank, as shown in Fig. 11. As soon as the tank lowers below the plungers the latter are forced inwardly to move the coating grid K to the left, Fig. 14, and in so doing the candies are brought under the jet discharging devices N, which are so pivoted that they hang normally with their orifices downward. At the same time as the candy centers are moved to the left- Ill mortar-e lltlll with the grid, the devices N are swung to the right, and by this relative movement jets of chocolate are discharged on the candy centers, the form taken up by this deposited chocolate being determined by the motion which is imparted to the frame that carries the jet discharging devices, and by the motion of the grid itself. During the last part of the swinging movement of the devices N, arms 188 rigidly connected with the journals 189 of the devices N strike abutments 190 carried by the frame 167, and by this means the jet discharging devices N are swung from the discharge position shown in Fig. 15 to the non-discharge position shown in Fig. 15. The position shown in Fig. 15 will be maintained until the tank again moves upwardly to refill the jet dis-.

charging devices and coat the next batch of candy centers that are conveyed to the coating mechanism, and the return of the devices to pendant position is effected by the return movement of the coating grid, due to the beveled surface 186 of the tank striking the beveled edge 187 of the grid. After the candy centers have been coated with chocolate or finished they are subjected to a blast of air to remove superfluouschocolate, such blast being produced by a moving nozzle 191 supported above the coating mechanism and movable in horizontal slots 192 in the frame structure. This blast-producing device or nozzle 191 is connected by a flexible hose 193, Fig. 23*, with a blower or other source of air 194. The nozzle 191 is caused to movehorizontally by a cord 195 winding,

on a drum 196 which is mounted on ashaft 197, and cooperating with thiscord 195 is a spring 198 which serves to return the blast device191 when the cord unwinds from the shaft 197. Pinions 199 mesh withrlrack teeth 200 on the vertical cam-carrying bars 185, so that as the bars 185 reciprocate the shaft 197 is turned, it being understood that the rods 185 are connected at 2.01 with the coating tank, so that they move up and down therewith. On the shaft 197 are pinions'202 203 on horizonand down movewhich mesh with rack teeth tal bars 204, so that the up ment of the tank causes a horizontal reciprocation of these bars.

which is connected the feeder or ejector 101, Fig. 2, which ejects the empty grids E from the carrier H, The right ends of the bars 201, Fig. 1, have rack teeth 206 which mesh with the pinions 23, and consequently these bars 204 reciprocate the frames C which control the feeding of the filledand empty trays respectively into the carrier D and i into the bottom of the chamber B, Fig. 2.

As the candy centers are being coated it i is necessary that they maintain their proper position on the coating grid, otherwise diffirultrs would be encountered in removing merged. These .32 and 33, and teeth 209,

. comprises a pair of beltsp p are endless, and 0n the left'ends of these bars are horizontal members 205 to 1ide members the coated candy centers. For this purpose retaining devices in the form of light rods 207, Figs. 12, 13 and 15, are fastened to the levers 164:, so as to engage the tops of'the I candy centers and hold them down on the grids as the candy centers are being subdevices move out of engagement with the coated candy centers as the levers 164 swing upwardly to bring the jet discharging devices into action, and consequently the retaining devices 207 will not interfere with the discharge of thedinishing coating material on the centers. The tanks are provided with suitable heating means, such as a pan 'm for the tank M, and a heating coil m for the reservoir M. the grid is' submerged, as well as the candycenters thereon, the bars of the conveying grid may become smeared with.

chocolate, and in order to scrape the chocolate from the bars 116 of the .conveying grid, a scraping comb 208 extends across the machine and is fastened to the frames as shown in Fig. 2", are arranged in pairs to engagerespectively opposite sides of each bar116 of the transfer grid ll.

After the candies are coated and have been conveyed away from the coating mech anism by the removing grid A and conveying belts 133, they are deposited upon sheets, plates or the like, or carriers whereby the finished candies can be conveniently handled. These sheets or carriers 0 may be made in any suitable manner and have their upper surfaces paraflined or otherwise prepared so that the candies will not stick thereto; and the mechanism P for conveying these sheets or plates to and from receiving position is which serve as supports clearly shown in Figs. 3, and 18 to 22' inelusive. The sheet conveying mechanism and 32 arranged at each edge of atable T, Fig. 21, which A table 1s arranged in the same plane with the upper portions of the conveying belts 133, so as to support a plateO While they candies are bein fed thereto by the saidbelts 133. The sheet conveying belts and one is nested fWltlllIl the other, and each pair passes around a driving pulley 210, so that the belts travel to gether and at the same rate. The lower stretches of the belts p are 100 wardly by being assed around ers 211, so that t ped uplde rolle lower stretc es of the belts p can receive the plates 0, as shown in Figs. 3 and 22, the plates being piled one on top of anotherand held by fixed 212. These platesor sheets have lugs 213 on their lower faces which are "adapted to enter openings 21 -1 in the belt p, whereby the belt will engage with the lowermost plates and carry the same to the position to receive the coated candies.

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